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Deterministically Encoding Quantum Information Using 100-Photon Schrodinger Cat States

Coherently Controlling Large CatsThe control and manipulation of quantum information based on superconducting circuits is an attractive route because of the possibility of scale-up. Vlastakis et al. (p. 607, published online 26 September; see the Perspective by Leek) were able to generate and contro... Full description

Journal Title: Science Nov 1, 2013, Vol.342(6158), pp.607-610
Main Author: Vlastakis, Brian
Other Authors: Kirchmair, Gerhard , Leghtas, Zaki , Nigg, Simon , Frunzio, Luigi , Girvin, S , Mirrahimi, Mazyar , Devoret, M , Schoelkopf, R
Format: Electronic Article Electronic Article
Language: English
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ID: ISSN: 0036-8075 ; DOI: 10.1126/science.1243289
Link: http://search.proquest.com/docview/1671527364/
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title: Deterministically Encoding Quantum Information Using 100-Photon Schrodinger Cat States
format: Article
creator:
  • Vlastakis, Brian
  • Kirchmair, Gerhard
  • Leghtas, Zaki
  • Nigg, Simon
  • Frunzio, Luigi
  • Girvin, S
  • Mirrahimi, Mazyar
  • Devoret, M
  • Schoelkopf, R
subjects:
  • Microwaves
  • Qubits (Quantum Computing)
  • Photons
  • Quantum Mechanics
  • Schroedinger Cat State
  • Circuits
  • Cavity Resonators
  • Superconductivity
  • Miscellaneous Sciences (So)
ispartof: Science, Nov 1, 2013, Vol.342(6158), pp.607-610
description: Coherently Controlling Large CatsThe control and manipulation of quantum information based on superconducting circuits is an attractive route because of the possibility of scale-up. Vlastakis et al. (p. 607, published online 26 September; see the Perspective by Leek) were able to generate and control quantum entanglement between a superconducting qubit and hundreds of photons stored in a cavity resonator by using deterministic methods for on-demand generation of large Schrodinger cat states in a microwave cavity with arbitrary size and phase. The ability to map the state of a qubit to large Schrodinger cat states should provide a robust quantum resource in future quantum-based technologies.
language: eng
source:
identifier: ISSN: 0036-8075 ; DOI: 10.1126/science.1243289
fulltext: no_fulltext
issn:
  • 00368075
  • 0036-8075
url: Link


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titleDeterministically Encoding Quantum Information Using 100-Photon Schrodinger Cat States
creatorVlastakis, Brian ; Kirchmair, Gerhard ; Leghtas, Zaki ; Nigg, Simon ; Frunzio, Luigi ; Girvin, S ; Mirrahimi, Mazyar ; Devoret, M ; Schoelkopf, R
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identifierISSN: 0036-8075 ; DOI: 10.1126/science.1243289
subjectMicrowaves ; Qubits (Quantum Computing) ; Photons ; Quantum Mechanics ; Schroedinger Cat State ; Circuits ; Cavity Resonators ; Superconductivity ; Miscellaneous Sciences (So)
descriptionCoherently Controlling Large CatsThe control and manipulation of quantum information based on superconducting circuits is an attractive route because of the possibility of scale-up. Vlastakis et al. (p. 607, published online 26 September; see the Perspective by Leek) were able to generate and control quantum entanglement between a superconducting qubit and hundreds of photons stored in a cavity resonator by using deterministic methods for on-demand generation of large Schrodinger cat states in a microwave cavity with arbitrary size and phase. The ability to map the state of a qubit to large Schrodinger cat states should provide a robust quantum resource in future quantum-based technologies.
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titleDeterministically Encoding Quantum Information Using 100-Photon Schrodinger Cat States
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abstractCoherently Controlling Large CatsThe control and manipulation of quantum information based on superconducting circuits is an attractive route because of the possibility of scale-up. Vlastakis et al. (p. 607, published online 26 September; see the Perspective by Leek) were able to generate and control quantum entanglement between a superconducting qubit and hundreds of photons stored in a cavity resonator by using deterministic methods for on-demand generation of large Schrodinger cat states in a microwave cavity with arbitrary size and phase. The ability to map the state of a qubit to large Schrodinger cat states should provide a robust quantum resource in future quantum-based technologies.
doi10.1126/science.1243289
urlhttp://search.proquest.com/docview/1671527364/
orcidid0000-0002-9172-1537
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date2013-11-01